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Help on module pipe:
NAME
pipe - Infix programming toolkit
FILE
/home/mandark/doc/code/python/pipe/pipe.py
DESCRIPTION
Module enablig a sh like infix syntax (using pipes).
= Introduction =
As an example, here is the solution for the 2nd Euler Project exercise :
"Find the sum of all the even-valued terms in Fibonacci
which do not exceed four million."
Given fib a generator of fibonacci numbers :
euler2 = fib() | where(lambda x: x % 2 == 0)
| take_while(lambda x: x < 4000000)
| add
= Vocabulary =
* a Pipe: a Pipe is a 'pipeable' function, somthing that you can pipe to,
In the code '[1, 2, 3] | add' add is a Pipe
* a Pipe function: A standard function returning a Pipe so it can be used like
a normal Pipe but called like in : [1, 2, 3] | concat("#")
= Syntax =
The basic syntax is to use a Pipe like in a shell :
>>> [1, 2, 3] | add
6
A Pipe can be a function call, for example the Pipe function 'where' :
>>> [1, 2, 3] | where(lambda x: x % 2 == 0) #doctest: +ELLIPSIS
<generator object <genexpr> at ...>
A Pipe as a function is nothing more than a function returning
a specialized Pipe.
= Constructing your own =
You can construct your pipes using Pipe classe initialized with lambdas like :
stdout = Pipe(lambda x: sys.stdout.write(str(x)))
select = Pipe(lambda iterable, pred: (pred(x) for x in iterable))
Or using decorators :
@Pipe
def stdout(x):
sys.stdout.write(str(x))
= Existing Pipes in this module =
stdout
Outputs anything to the standard output
>>> "42" | stdout
42
lineout
Outputs anything to the standard output followed by a line break
>>> 42 | lineout
42
as_list
Outputs an iterable as a list
>>> (0, 1, 2) | as_list
[0, 1, 2]
as_tuple
Outputs an iterable as a tuple
>>> [1, 2, 3] | as_tuple
(1, 2, 3)
concat()
Aggregates strings using given separator, or ", " by default
>>> [1, 2, 3, 4] | concat
'1, 2, 3, 4'
>>> [1, 2, 3, 4] | concat("#")
'1#2#3#4'
average
Returns the average of the given iterable
>>> [1, 2, 3, 4, 5, 6] | average
3.5
netcat
Open a socket on the given host and port, and send data to it,
Yields host reponse as it come.
netcat apply traverse to its input so it can take a string or
any iterable.
"GET / HTTP/1.0
Host: google.fr
" | netcat('google.fr', 80) | concat | stdout
netwrite
Like netcat but don't read the socket after sending data
count
Returns the length of the given iterable, counting elements one by one
>>> [1, 2, 3, 4, 5, 6] | count
6
add
Returns the sum of all elements in the preceding iterable
>>> (1, 2, 3, 4, 5, 6) | add
21
first
Returns the first element of the given iterable
>>> (1, 2, 3, 4, 5, 6) | first
1
chain
Unfold preceding Iterable of Iterables
>>> [[1, 2], [3, 4], [5]] | chain | concat
'1, 2, 3, 4, 5'
Warning : chain only unfold iterable containing ONLY iterables :
[1, 2, [3]] | chain
Gives a TypeError: chain argument #1 must support iteration
Consider using traverse
traverse
Recursively unfold iterables
>>> [[1, 2], [[[3], [[4]]], [5]]] | traverse | concat
'1, 2, 3, 4, 5'
>>> squares = (i * i for i in range(3))
>>> [[0, 1, 2], squares] | traverse | as_list
[0, 1, 2, 0, 1, 4]
select()
Apply a conversion expression given as parameter
to each element of the given iterable
>>> [1, 2, 3] | select(lambda x: x * x) | concat
'1, 4, 9'
where()
Only yields the matching items of the given iterable
>>> [1, 2, 3] | where(lambda x: x % 2 == 0) | concat
'2'
take_while()
Like itertools.takewhile, yields elements of the
given iterable while the predicat is true
>>> [1, 2, 3, 4] | take_while(lambda x: x < 3) | concat
'1, 2'
skip_while()
Like itertools.dropwhile, skips elements of the given iterable
while the predicat is true, then yields others
>>> [1, 2, 3, 4] | skip_while(lambda x: x < 3) | concat
'3, 4'
chain_with()
Like itertools.chain, yields elements of the given iterable,
then yields elements of its parameters
>>> (1, 2, 3) | chain_with([4, 5], [6]) | concat
'1, 2, 3, 4, 5, 6'
take()
Yields the given quantity of elemenets from the given iterable, like head
in shell script.
>>> (1, 2, 3, 4, 5) | take(2) | concat
'1, 2'
skip()
Skips the given quantity of elements from the given iterable, then yields
>>> (1, 2, 3, 4, 5) | skip(2) | concat
'3, 4, 5'
islice()
Just the itertools.islice
>>> (1, 2, 3, 4, 5, 6, 7, 8, 9) | islice(2, 8, 2) | concat
'3, 5, 7'
izip()
Just the itertools.izip
>>> (1, 2, 3, 4, 5, 6, 7, 8, 9) | izip([9, 8, 7, 6, 5, 4, 3, 2, 1]) | concat
'(1, 9), (2, 8), (3, 7), (4, 6), (5, 5), (6, 4), (7, 3), (8, 2), (9, 1)'
aggregate()
Works as python reduce
>>> (1, 2, 3, 4, 5, 6, 7, 8, 9) | aggregate(lambda x, y: x * y)
362880
Simulate concat :
>>> (1, 2, 3, 4, 5, 6, 7, 8, 9) | aggregate(lambda x, y: str(x) + ', ' + str(y))
'1, 2, 3, 4, 5, 6, 7, 8, 9'
any()
Returns True if any element of the given iterable satisfies the predicate
>>> (1, 3, 5, 6, 7) | any(lambda x: x >= 7)
True
>>> (1, 3, 5, 6, 7) | any(lambda x: x > 7)
False
all()
Returns True if all elements of the given iterable
satisfies the given predicate
>>> (1, 3, 5, 6, 7) | all(lambda x: x < 7)
False
>>> (1, 3, 5, 6, 7) | all(lambda x: x <= 7)
True
max()
Returns the biggest element, using the given key function if
provided (or else the identity)
>>> ('aa', 'b', 'foo', 'qwerty', 'bar', 'zoog') | max(key=len)
'qwerty'
>>> ('aa', 'b', 'foo', 'qwerty', 'bar', 'zoog') | max()
'zoog'
>>> ('aa', 'b', 'foo', 'qwerty', 'bar', 'zoog') | max
'zoog'
min()
Returns the smallest element, using the key function if provided
(or else the identity)
>>> ('aa', 'b', 'foo', 'qwerty', 'bar', 'zoog') | min(key=len)
'b'
>>> ('aa', 'b', 'foo', 'qwerty', 'bar', 'zoog') | min
'aa'
groupby()
Like itertools.groupby(sorted(iterable, key = keyfunc), keyfunc)
(1, 2, 3, 4, 5, 6, 7, 8, 9) | groupby(lambda x: x % 2 and "Even" or "Odd")
| select(lambda x: "%s : %s" % (x[0], (x[1] | concat(', '))))
| concat(' / ')
'Even : 1, 3, 5, 7, 9 / Odd : 2, 4, 6, 8'
sort()
Like Python's built-in "sorted" primitive. Allows cmp (Python 2.x
only), key, and reverse arguments. By default sorts using the
identity function as the key.
>>> "python" | sort | concat("")
'hnopty'
>>> [5, -4, 3, -2, 1] | sort(key=abs) | concat
'1, -2, 3, -4, 5'
reverse
Like Python's built-in "reversed" primitive.
>>> [1, 2, 3] | reverse | concat
'3, 2, 1'
permutations()
Returns all possible permutations
>>> 'ABC' | permutations(2) | concat(' ')
"('A', 'B') ('A', 'C') ('B', 'A') ('B', 'C') ('C', 'A') ('C', 'B')"
>>> range(3) | permutations | concat('-')
'(0, 1, 2)-(0, 2, 1)-(1, 0, 2)-(1, 2, 0)-(2, 0, 1)-(2, 1, 0)'
Euler project samples :
# Find the sum of all the multiples of 3 or 5 below 1000.
euler1 = (itertools.count() | select(lambda x: x * 3) | take_while(lambda x: x < 1000) | add) + (itertools.count() | select(lambda x: x * 5) | take_while(lambda x: x < 1000) | add) - (itertools.count() | select(lambda x: x * 15) | take_while(lambda x: x < 1000) | add)
assert euler1 == 233168
# Find the sum of all the even-valued terms in Fibonacci which do not exceed four million.
euler2 = fib() | where(lambda x: x % 2 == 0) | take_while(lambda x: x < 4000000) | add
assert euler2 == 4613732
# Find the difference between the sum of the squares of the first one hundred natural numbers and the square of the sum.
square = lambda x: x * x
euler6 = square(itertools.count(1) | take(100) | add) - (itertools.count(1) | take(100) | select(square) | add)
assert euler6 == 25164150
CLASSES
Pipe
class Pipe
| Represent a Pipeable Element :
| Described as :
| first = Pipe(lambda iterable: next(iter(iterable)))
| and used as :
| print [1, 2, 3] | first
| printing 1
|
| Or represent a Pipeable Function :
| It's a function returning a Pipe
| Described as :
| select = Pipe(lambda iterable, pred: (pred(x) for x in iterable))
| and used as :
| print [1, 2, 3] | select(lambda x: x * 2)
| # 2, 4, 6
|
| Methods defined here:
|
| __call__(self, *args, **kwargs)
|
| __init__(self, function)
|
| __ror__(self, other)
FUNCTIONS
reduce(...)
reduce(function, sequence[, initial]) -> value
Apply a function of two arguments cumulatively to the items of a sequence,
from left to right, so as to reduce the sequence to a single value.
For example, reduce(lambda x, y: x+y, [1, 2, 3, 4, 5]) calculates
((((1+2)+3)+4)+5). If initial is present, it is placed before the items
of the sequence in the calculation, and serves as a default when the
sequence is empty.
DATA
__author__ = 'Julien Palard <julien@eeple.fr>'
__credits__ = 'Jerome Schneider, for its Python skillz,\nand dalexande...
__date__ = '10 Nov 2010'
__version__ = '1.3'
add = <pipe.Pipe instance>
aggregate = <pipe.Pipe instance>
all = <pipe.Pipe instance>
any = <pipe.Pipe instance>
as_list = <pipe.Pipe instance>
as_tuple = <pipe.Pipe instance>
average = <pipe.Pipe instance>
chain = <pipe.Pipe instance>
chain_with = <pipe.Pipe instance>
concat = <pipe.Pipe instance>
count = <pipe.Pipe instance>
first = <pipe.Pipe instance>
groupby = <pipe.Pipe instance>
islice = <pipe.Pipe instance>
izip = <pipe.Pipe instance>
lineout = <pipe.Pipe instance>
max = <pipe.Pipe instance>
min = <pipe.Pipe instance>
netcat = <pipe.Pipe instance>
netwrite = <pipe.Pipe instance>
permutations = <pipe.Pipe instance>
reverse = <pipe.Pipe instance>
select = <pipe.Pipe instance>
skip = <pipe.Pipe instance>
skip_while = <pipe.Pipe instance>
sort = <pipe.Pipe instance>
stdout = <pipe.Pipe instance>
take = <pipe.Pipe instance>
take_while = <pipe.Pipe instance>
traverse = <pipe.Pipe instance>
where = <pipe.Pipe instance>
VERSION
1.3
DATE
10 Nov 2010
AUTHOR
Julien Palard <julien@eeple.fr>
CREDITS
Jerome Schneider, for its Python skillz,
and dalexander for contributing
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A Python library to use infix notation in Python
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